References
- I. Gajda, J. Greenman, I.A. Ieropoulos, Recent advancements
in real-world microbial fuel cell applications, Curr. Opin.
Electrochem.,11 (2018) 78–83.
- S. Mateo, P. Cañizares, M.A. Rodrigo, F.J. Fernández-Morales,
Reproducibility and robustness of microbial fuel cells
technology, J. Power Sources, 412 (2019) 640–647.
- C. Santoro, C. Arbizzani, B. Erable, I. Ieropoulos, Microbial fuel
cells: from fundamentals to applications.
A review, J. Power
Sources, 356 (2017) 225–244.
- Y. Ye, H.H. Ngo, W. Guo, Y. Liu, S.W. Chang, D.D. Nguyen,
J. Ren, Y. Liu, X. Zhang, Feasibility study on a double chamber
microbial fuel cell for nutrient recovery from municipal
wastewater, Chem. Eng. J., 358 (2019) 236–242.
- B.E. Logan, B. Hamelers, R. Rozendal, U. Schröder, J. Keller,
S. Freguia, P. Aelterman, W. Verstraete, K. Rabaey, Microbial
fuel cells: methodology and technology, Environ. Sci. Technol.,
40 (2006) 5181–5192.
- R. Rossi, B.E. Logan, Impact of reactor configuration on pilotscale
microbial fuel cell performance, Water Res., 225 (2022)
119179, doi: 10.1016/j.watres.2022.119179.
- V.B. Oliveira, M. Simões, L.F. Melo, A.M.F.R. Pinto, Overview
on the developments of microbial fuel cells, Biochem. Eng. J.,
73 (2013) 53–64.
- P.T. Kelly, Z. He, Nutrients removal and recovery in
bioelectrochemical systems: a review, Bioresour. Technol.,
153 (2014) 351–360.
- G. Palanisamy, H.Y. Jung, T. Sadhasivam, M.D. Kurkuri,
S.C. Kim, S.H. Roh, A comprehensive review on microbial
fuel cell technologies: processes, utilization, and advanced
developments in electrodes and membranes, J. Cleaner Prod.,
221 (2019) 598–621.
- S.E. Oh, B.E. Logan, Voltage reversal during microbial fuel
cell stack operation, J. Power Sources, 167 (2007) 11–17.
- M.A. Amirdehi, L. Gong, N. Khodaparastasgarabad,
J.M. Sonawane, B.E. Logan, J. Greener, Hydrodynamic
interventions and measurement protocols to quantify
and mitigate power overshoot in microbial fuel cells
using microfluidics, Electrochim. Acta, 405 (2022) 139771,
doi: 10.1016/j.electacta.2021.139771.
- X. Xie, M. Ye, P.C. Hsu, N. Liu, C.S. Criddle, Y. Cui, Microbial
battery for efficient energy recovery, Proc. Natl. Acad. Sci.
U.S.A., 110 (2013) 15925–15930.
- P.T. Sekoai, A.A. Awosusi, K.O. Yoro, M. Singo, O. Oloye,
A.O. Ayeni, M. Bodunrin, M.O. Daramola, Microbial cell
immobilization in biohydrogen production: a short overview,
Crit. Rev. Biotechnol., 38 (2018) 157–171.
- K. Wang, Y. Liu, S. Chen, Improved microbial electrocatalysis
with neutral red immobilized electrode, J. Power Sources,
196 (2011) 164–168.
- M. Landreau, S.J. Byson, H. You, D.A. Stahl, M.K.H. Winkler,
Effective nitrogen removal from ammonium-depleted
wastewater by partial nitritation and anammox immobilized
in granular and thin layer gel carriers, Water Res., 183 (2020)
116078, doi: 10.1016/j.watres.2020.116078.
- H.C. Flemming, S. Wuertz, Bacteria and archaea on Earth and
their abundance in biofilms, Nat. Rev. Microbiol., 17 (2019)
247–260.
- S. Naahidi, M. Jafari, M. Logan, Y. Wang, Y. Yuan, H. Bae,
B. Dixon, P. Chen, Biocompatibility of hydrogel-based
scaffolds for tissue engineering applications, Biotechnol. Adv.,
35 (2017) 530–544.
- L. Hou, Y. Liu, B.L. Zhou, J. Li, Influencing factors of
immobilized bacteria particles for improving denitrification
efficiency, Desal. Water Treat., 202 (2020) 276–282.
- G. Kumar, A. Mudhoo, P. Sivagurunathan, D. Nagarajan,
A. Ghimire, C.H. Lay, C.Y. Lin, D.J. Lee, J.S. Chang, Recent
insights into the cell immobilization technology applied for
dark fermentative hydrogen production, Bioresour. Technol.,
219 (2016) 725–737.
- S. Girijan, M. Kumar, Immobilized biomass systems: an
approach for trace organics removal from wastewater and
environmental remediation, Curr. Opin. Environ. Sustainability,
12 (2019) 18–29.
- L. Hou, J. Li, Y. Liu, Microbial communities variation analysis
of denitrifying bacteria immobilized particles, Process
Biochem., 87 (2019) 151–156.
- L. Hou, Q. Yang, J. Li, Electricity effectively utilization by
integrating microbial fuel cells with microbial immobilization
technology for denitrification, Biotechnol. Bioprocess Eng.,
25 (2020) 470–476.
- S.W. Hong, I.S. Chang, Y.S. Choi, T.H. Chung, Experimental
evaluation of influential factors for electricity harvesting
from sediment using microbial fuel cell, Bioresour. Technol.,
100 (2009) 3029–3035.
- Q. Zhao, M. Ji, R. Li, Z.J. Ren, Long-term performance of
sediment microbial fuel cells with multiple anodes, Bioresour.
Technol., 237 (2017) 178–185.
- C. Yang, H. Aslan, P. Zhang, S. Zhu, Y. Xiao, L. Chen,
N. Khan, T. Boesen, Y. Wang, Y. Liu, L. Wang, Y. Sun, Y. Feng,
F. Besenbacher, F. Zhao, M. Yu, Carbon dots-fed Shewanella
oneidensis MR-1 for bioelectricity enhancement, Nat. Commun.,
11 (2020) 1379, doi: 10.1038/s41467-020-14866-0.
- O. Schaetzle, F. Barrière, K. Baronian, Bacteria and yeasts as
catalysts in microbial fuel cells: electron transfer from microorganisms
to electrodes for green electricity, Energy Environ.
Sci., 1 (2008) 607–620.